Neural Organization of the Median Ocellus of the Dragonfly: I. Intracellular electrical activity

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Neural Organization of the Median Ocellus of the Dragonfly

I. Intracellular electrical activity

Richard L. Chappell ¹ and John E. Dowling ¹

¹ From the Wilmer Institute, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, the Department of Biological Sciences, Hunter College of the City University of New York, New York 10021, and The Biological Laboratories, Harvard University, Cambridge, Massachusetts 02138

Intracellular responses from receptors and postsynaptic unitshave been recorded in the median ocellus of the dragonfly. Thereceptors respond to light with a graded, depolarizing potentialand a single, tetrodotoxin-sensitive impulse at "on." The postsynapticunits (ocellar nerve dendrites) hyperpolarize during illuminationand show a transient, depolarizing response at "off." The light-evokedslow potential responses of the postsynaptic units are not alteredby the application of tetrodotoxin to the ocellus. It appears,therefore, that the graded receptor potential, which survivesthe application of tetrodotoxin, is responsible for mediatingsynaptic transmission in the ocellus. Comparison of pre- andpostsynaptic slow potential activity shows (a) longer latenciesin postsynaptic units by 5–20 msec, (b) enhanced photosensitivityin postsynaptic units by 1–2 log units, and (c) more transientresponses in postsynaptic units. It is suggested that enhancedphotosensitivity of postsynaptic activity is a result of summationof many receptors onto the postsynaptic elements, and that transientsin the postsynaptic responses are related to the complex synapticarrangements in the ocellar plexus to be described in the followingpaper.

Submitted on January 4, 1972

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